Download Advanced field calibrator and communicator

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Transcript 
Advanced field calibrator and communicator
Beamex® MC6
More than a calibrator.
1
2
The impossible made possible:
combining advanced functionality with
ease-of-use.
Beamex® MC6 is an advanced, high-accuracy field calibrator
and communicator. It offers calibration capabilities for
pressure, temperature and various electrical signals. The
MC6 also contains a full fieldbus communicator for HART,
FOUNDATION Fieldbus and Profibus PA instruments.
The usability and ease-of-use are among the main features
of the MC6. It has a large 5.7” color touch-screen with a
multilingual user interface. The robust IP65-rated dust- and
water-proof casing, ergonomic design and light weight make
it an ideal measurement device for field use in various
industries, such as the pharmaceutical, energy, oil and gas,
food and beverage, service as well as the petrochemical and
chemical industries.
The MC6 is one device with five different operational modes,
which means that it is fast and easy to use, and you can carry
less equipment in the field. The operation modes are: Meter,
Calibrator, Documenting Calibrator, Data Logger and Fieldbus
Communicator. In addition, the MC6 communicates with
Beamex® CMX Calibration Software, enabling fully automated
and paperless calibration and documentation.
In conclusion, the MC6 is more than a calibrator.
MC6 Main Features
Accuracy
High-accuracy, advanced field calibrator and communicator.
Usability
Combines advanced functionality with ease-of-use.
Versatility
Versatile functionality beyond traditional calibration
applications.
Communicator
Full multi-bus communicator for HART,
FOUNDATION Fieldbus and Profibus PA instruments.
Integration
Automates calibration procedures for paperless calibration
management.
3
Accuracy
4
High-accuracy, advanced field calibrator
and communicator
Unmatched accuracy
Today’s process instrumentation is becoming more and
more accurate. Therefore, calibration equipment must also
have improved accuracy. When Beamex develops new
measurement equipment, it makes no compromises in terms
of accuracy – it must be best-in-class. The MC6 makes no
exceptions. Accuracy is one of the main features of the MC6.
It is among the most accurate, advanced field calibrators
available on the market.
Accuracy that tolerates demanding
conditions
Field calibrators and communicators must tolerate
demanding environmental conditions, such as cold or warm
weather, moisture and dust. The MC6 is designed to handle
demanding and variable environmental conditions. All of the
pressure, electrical and temperature ranges are temperature
compensated, and therefore the accuracy of the calibrator
is not jeopardized when used in given types of extreme
environments.
Accredited calibration certificate as
standard
Every MC6 calibrator is calibrated in the Beamex accredited
laboratory before delivery. As proof of how accurate it is,
each MC6 is delivered with a traceable, accredited calibration
certificate as standard. The certificate includes calibration and
uncertainty data from the calibration laboratory. The calibration
laboratory’s Scope of Accreditation can be found on Beamex’s
website (www.beamex.com).
Summary of accuracy figures
The MC6 has specifications for short-term accuracy and for
1-year total uncertainty.
Brief summary of the Accuracy figures:
• Pressure accuracy starting from
±(0.005 % FS + 0.0125% of reading).
• Temperature - RTD temperature measurement accuracy
starting from ±0.011 °C.
• Electric - Current measurement accuracy starting from
±(0.75 µA + 0.0075% of reading).
5
Usability
6
Designed for field use
User-friendly interface
The MC6 has a large 5.7” color touch-screen with high
resolution and an effective adjustable backlight. The buttons
on the touch-screen have been designed large enough to
use with bare fingers, so there is no need for a stylus – it can
even be used with gloved hands! In addition, the MC6 has a
membrane keypad. The multi-lingual user interface has been
divided into different operational modes. A soft number keypad
and alphabetical QWERTY text keypad will appear whenever
necessary for easy number/text entries.
Automated procedures
Whenever a certain measurement or generation is
selected, the user interface shows where to make the
connections, which allows you to use a device with several
connections. The MC6 is also a documenting calibrator and it
communicates with the Beamex® CMX Calibration Software
enabling fully automated and paperless calibration data
management. This makes the calibration and documenting
of calibration results automatic and much easier. Since the
MC6 is a measurement device that replaces several individual
devices, there’s no need to carry several units in the field.
What’s more, the MC6 is also a fieldbus communicator,
and therefore there is no need to carry an additional
communicator.
Robust, lightweight and ergonomic design
The MC6 has the latest, rechargeable lithium-ion polymer
batteries, which are durable and charge up quickly. The user
interface keeps you up to date on the remaining operation
time in hours and minutes, making it easy to follow how long
the battery will last. Once the unit is switched on, it is ready to
use in just a few seconds. The case is ergonomic and water-/
dust-proof (IP65). There are two types of cases available: a
slim case when internal pressure modules are not needed
and an extended version, which provides room for the internal
pressure modules. The wrist strap makes it easy to hold the
device in your hand, while the neck strap makes it easy to
carry and use the device.
User-interface modes
The MC6 is a unique measurement device, as it combines
advanced functionality with ease-of-use. How is it possible
to combine these two features? The solution is that the MC6
contains various operational modes all in one device, each of
which is optimized for different uses. The operational modes
are Meter, Calibrator, Documenting Calibrator, Communicator
and Data Logger.
7
User-interface modes
Meter
The Meter mode is designed for
simple and easy measurement of
signals. Oftentimes, you may need
to measure something quickly and
easily. Often a simple multi-meter
is used for this purpose, as it is
easy to use. Some multifunctional
calibrators may be too slow and
difficult to use, so it is easier to
just choose the simpler meter.
The Meter mode in MC6 is
optimized for this type of simple
and easy metering.
Data Logger
The Data Logger is designed for
logging various measurement
results. Often in industry, there
is a need to measure signals for
shorter or longer periods and to
save the results in a memory for
later analysis. This may be related
to trouble-shooting, surveillance
or calibration. The Data Logger
mode in MC6 is optimized for this
type of use.
Calibrator
The Calibrator mode is designed
for calibrating various process
instruments. Oftentimes, you
need to check and calibrate
a certain process instrument/
transmitter. Transmitters typically
have an input and an output.
So you either need to have two
devices, or a device capable of
doing two things simultaneously.
The Calibrator mode in MC6 is
optimized for this type of use.
8
Communicator
The Communicator mode is
designed to communicate
with Fieldbus instruments.
In today’s process plants,
smart instrumentation is being
used to an increasing degree.
Therefore, engineers need
to use communicators or
configuration software. Most of
this instrumentation is HART,
FOUNDATION Fieldbus or
Profibus PA. The Communicator
mode in MC6 is optimized for
communicator use.
Documenting calibrator
The Documenting Calibrator
mode is designed for the process
instrument calibration and
documenting of the calibration
results. In today’s process
plant, calibrations often have
to be documented. Without
a Documenting Calibrator,
documentation must be done
manually, which takes a lot of
precious time and is prone to error.
The Documenting Calibrator mode
in MC6 is optimized for use as a
documenting process calibrator.
Settings
The Settings mode allows you
to edit the calibrator’s various
settings.
9
Versatility
10
Versatile functionality beyond traditional
calibration applications
The MC6 is an advanced field calibrator and communicator,
which replaces several measurement devices. It offers
extremely versatile and multifunctional calibration capability
for pressure, temperature and various electrical signals.
It also includes a full Fieldbus communicator for HART,
FOUNDATION Fieldbus and Profibus PA instruments.
MC6 measurement, generation and
simulation functions
•Pressure measurement
•Voltage measurement and generation
•Current measurement and generation
•Resistance measurement and simulation
•RTD measurement and simulation
•TC measurement and simulation
MC6 as a temperature calibrator
The MC6 has two RTD channels, and therefore it is able
to measure two RTD sensors simultaneously with great
accuracy. You can program sensor correction coefficients into
the MC6 if you need to compensate sensor error. It also has
two thermocouple channels, so it can accurately measure two
thermocouples simultaneously, and it has automatic internal
compensation of the reference (cold) junction. Using external
or manual reference junction compensation is also possible.
One thermocouple channel has a unique and very versatile
connection block supporting the use of plain thermocouple
wires, or any type of thermocouple connector. The MC6
supports a large number RTD and thermocouple sensors as
standard, and there are several additional sensors available as
optional sensors. The MC6 can communicate with temperature
controllers (Dry Blocks) enabling fully automatic calibration
of temperature sensors or temperature instruments with
temperature sensor.
•Frequency measurement and generation
•Pulse counting and generation
•Switch state sensing
•Built-in 24 VDC Loop Supply
•Field communicator for HART, FOUNDATION Fieldbus and
Profibus PA
MC6 as a pressure calibrator
The MC6 can come with as many as 4 internal pressure
modules (3 standard modules + a barometric module). There
is also a connection for external pressure modules. All of the
internal and external pressure modules up to 6 bar (90 psi)
come with an internal returning relief valve that protects the
module from accidental overpressure. Most of the pressure
modules have a compound range, and therefore they can
measure from full vacuum up to the module range. When a
unit is equipped with the barometric module, all other modules
can be used for measuring absolute pressure. This means
that there is no need to purchase separate absolute and
gauge pressure modules. This makes it more practical to use
and saves money. The MC6 can communicate with Beamex®
Automatic Pressure Controller POC6 enabling fully automatic
calibration of pressure instruments.
11
Field Communicator
12
Full multi-bus field communicator for
HART, FOUNDATION Fieldbus and Profibus
PA instruments
Smart instrumentation is becoming more and more common
in today’s process plants. The most widely used smart
instrument protocols are HART, FOUNDATION Fieldbus and
Profibus PA. Therefore, in addition to a calibrator, an engineer
often needs to use a field communicator. The MC6 combines
these two; it’s a calibrator and a communicator.
Communicator
The Communicator mode is a full multi-bus communicator for
HART, FOUNDATION Fieldbus and Profibus PA instruments.
Therefore, it eliminates the need to carry a separate
communicator with you. All of the communicator electronics
for all protocols are built into the MC6, including internal loop
power supply with various required impedances for different
buses, which means there is no need to use any external loop
supply or resistors. The connections are extremely easy to
make - just connect two leads from the MC6 to the instrument.
Multi-bus Communicator
The MC6 communicator can be used with all types of Fieldbus
instruments, not only pressure and temperature transmitters.
All 3 protocols can be simultaneously installed into an MC6,
and therefore the very same device can be used as a HART,
FOUNDATION Fieldbus and Profibus PA communicator. With
the MC6, you can access all parameters in all blocks of a
Fieldbus instrument. Its memory stores device descriptions
for the Fieldbus instruments. When new instruments are
introduced on the market, new device description files
will be made available and can be easily downloaded into
the memory. For example, the MC6 DD library supports
approximately 1,000 different Device Descriptions for the
HART protocol.
Communicator and Calibrator
The MC6 is not only a communicator; it is also a
multifunctional calibrator, which allows you to make traceable
metrological calibration and trimming for Fieldbus instruments.
What’s more, the Fieldbus parameters can be configured, the
variables logged into the Data Logger mode or measured in
the Calibrator mode and calibrated and documented in the
Documenting Calibrator mode.
13
Seamless Integration.
Automate calibration procedures for
paperless calibration management
According to some studies, instrument technicians use up to
50 % of their time doing paperwork, i.e. preparing calibration
instructions, making notes of calibration results in the field and
documenting and archiving calibration results.
All of the above tasks are extremely important and necessary,
but doing them in the “Beamex way”, with seamlessly
communicating documenting calibrators and calibration
software, remarkably improves the quality, efficiency and
accuracy of the entire calibration process and saves
costs compared to traditional pen and paper systems or
“do-it-yourself” computer databases. The Beamex® MC6
communicates with Beamex® CMX Calibration Software
enabling fully automated and paperless calibration and
documentation! Beamex calibrators, workstations, calibration
software and professional services form the most integrated,
automated calibration system available.
Benefits of an automated calibration system with
seamlessly communicating documenting calibrators and
calibration software:
•Preparing calibration schedules and documentation is fast
and efficient.
•No more typing errors related to calibration documentation.
•Planning optimal interval for performing calibrations is easy.
•Quality and accuracy of calibration records are dramatically
improved.
•Calibration data is easily accessible for audits.
•System integration with maintenance management systems
is possible.
KUVA
14
BEAMEX® INTEGRATED CALIBRATION
SOLUTION, STEP-BY-STEP
The Beamex® CMX Calibration Software indicates what
needs to be calibrated and when.
Download calibration procedures and instructions
from the software to the MC6.
•Easy, fast and efficient
•No need to search archived paper files
•Fast procedure
•No pen, paper or notepads needed
Perform instrument calibration and data collection
with the MC6.
Upload calibration results to the software.
•The MC6 replaces many individual measurement
devices and calibrators
•Automated calibration is fast
•Automatically download calibration results back to software
•Data transfer is fast and efficient, writing mistakes are
eliminated
Create, store and manage calibration information
safely and efficiently with the software.
Integration to a maintenance management system.
•All calibration data is stored and managed in the CMX
database
•Calibration certificates, reports and labels in electronic
format, on paper or both
•All documentation in the CMX is in auditable and traceable
(e.g. ISO17025, cGMP, 21 CFR Part 11)
•Plant hierarchy and work orders are stored in MMS
(e.g. SAP®, Maximo®) and from there transferred to the
CMX, which stores all calibration procedures, standards
and results
•When calibration work has been performed, the CMX
sends acknowledgement of the calibration back to MMS.
15
Additional Features
Feature
Specification
Scaling
A versatile programmable scaling function allows user to scale any measurement or generation unit into any other unit. Supports also
rooting transfer function for flow applications. Also, custom units and custom transfer functions are supported.
Alarm
An alarm that can be programmed with high or low limit, as well as slow rate or fast rate limit.
Leak test
A dedicated function that can be used to analyse a change in any measurement. Can be used for pressure leak testing as well as any
stability testing.
Damping
A programmable damping allows user to filter any measurement.
Resolution
Possibility to change the resolution of any measurement by reducing or adding decimals.
Step
A programmable step function for any generation or simulation.
Ramp
A programmable ramp function for any generation or simulation.
Quick access
Possibility to set four (4) quick access buttons in generation to easily generate the programmed values.
Spinner
Possibility to easily step any digit in the generation value up or down.
Additional info
Allow user to see additional information in the screen such as: Min, Max, Rate, Average, Internal temperature, RTD sensor’s resistance,
thermocouple’s thermovoltage, range min/max, etc.
Function info
Displays more information on the selected function.
Connection diagrams
Displays a picture showing where to connect the test leads with the selected function.
Calibration references
Allows you to document the additional references that were used during the calibration and passes on the information to Beamex CMX
calibration software.
Users
Possibility to create a list of persons in the documenting calibrator in order to easily select who did the calibration.
Custom pressure unit
Large number of custom pressure units can be created.
Custom RTD sensor
Unlimited number of custom RTD sensors can be created using the Callendar van Dusen coefficients.
Custom point sets
Unlimited number of custom point sets can be created in calibration of an instrument, or step generation.
Custom transfer function
Unlimited number of custom transfer functions can be created in calibration of an instrument or in scaling function.
Note; All functions are not available in all user interface modes.
16
Specifications
General Specifications
Feature
Value
Display
5.7” Diagonal 640 x 480 TFT LCD Module
Touch Panel
5-wire resistive touch screen
Keyboard
Membrane keyboard
Backlight
LED backlight, adjustable brightness
Weight
Extended case: 1.5 ... 2.0 kg (3.3 ... 4.4 lb)
Flat case: 1.5 kg (3.3 lb)
Dimensions
Extended case: 200 mm × 230 mm × 70 mm (D × W × H) ( 7.87 in × 9.06 in × 2.76 in)
Flat case: 200 mm × 230 mm × 57 mm (D × W × H) ( 7.87 in × 9.06 in × 2.24 in)
Battery type
Rechargeable lithium-ion polymer, 4200 mAh, 11.1V
Charging time
Approximately 4 hours
Charger supply
100 ... 240 VAC, 50-60 Hz
Battery operation
10 ... 16 hours
Operating temperature
-10 ... 45 °C (14 ... 113 °F)
Operating temperature while charging batteries
0 ... 30 °C (32 ... 86 °F)
Storage temperature
-20 ... 60 °C (-4 ... 113 °F)
Specifications valid
-10 ... 45 °C, unless other mentioned
Humidity
0 ... 80% R.H. non condensing
Warmup time
Specifications valid after a 5 minute warmup period.
Max. input voltage
30 V AC, 60 V DC
Display update rate
3 readings/second
Safety
Directive 2006/95/EC, EN 61010-1:2001
EMC
Directive 2004/108/EC, EN 61326-1:2006
Ingress protection
IP65
Drop
IEC 60068-2-32. 1 meter (3.28 ft)
Vibration
IEC 60068-2-64. Random, 2 g, 5 ... 500Hz.
Max altitude
3000 m (9842 ft)
Warranty
Warranty 3 Years. 1 year for battery pack. Warranty extension programs are also available.
Measurement, generation and simulation functions
• Pressure measurement
(internal/external pressure modules)
• Resistance measurement,
two simultaneous channels (0 ... 4 kΩ)
• Voltage measurement (±1 V and -1 ... 60 VDC)
• Resistance simulation (0 ... 4 kΩ)
• Current measurement (±100 mA)
(internal or external supply)
• RTD measurement, two simultaneous channels
• Frequency measurement (0 ... 50 kHz)
• Pulse counting (0 ... 10 Mpulse)
• TC measurement, two simultaneous channels
(universal connector/mini-plug)
• Switch state sensing (dry/wet switch)
• TC simulation
• Built-in 24 VDC Loop Supply
(low impedance, HART impedance or
FF/PA impedance)
• Frequency generation (0 ... 50 kHz)
• Voltage generation ( ±1 V and -3 ... 24 VDC)
• Current generation (0 ... 55 mA)
(active/passive, i.e. Internal or external supply)
• RTD simulation
• Pulse queue generation (0 ... 10 Mpulse)
• HART Communicator
• FOUNDATION Fieldbus Communicator
• Profibus PA Communicator
(Some of the above functions are optional)
17
Pressure measurement
1)
2)
3)
Internal
Modules
External
Modules
Unit
Range (3
Resolution
Accuracy (1 (±)
1 Year Uncertainty (2 (±)
PB
EXT B
kPa a
mbar a
psi a
70 to 120
700 to 1200
10.15 to 17.4
0.01
0.1
0.001
0.3 mbar
0.05 kPa
0.5 mbar
0.0073 psi
P10mD
EXT10mD
kPa diff
mbar diff
iwc diff
±1
± 10
±4
0.0001
0.001
0.0001
0.05 % Span
0.05 % Span + 0.1 % RDG
P100m
EXT100m
kPa
mbar
iwc
0 to 10
0 to 100
0 to 40
0.0001
0.001
0.001
0.015 % FS + 0.0125 % RDG
0.025 % FS + 0.025% RDG
P400mC
EXT400mC
kPa
mbar
iwc
± 40
± 400
± 160
0.001
0.01
0.001
0.01 % FS + 0.0125 % RDG
0.02 % FS + 0.025% RDG
P1C
EXT1C
kPa
bar
psi
± 100
±1
-14.5 to 15
0.001
0.00001
0.0001
0.007 % FS + 0.0125 % RDG
0.015 % FS + 0.025% RDG
P2C
EXT2C
kPa
bar
psi
-100 to 200
-1 to 2
-14.5 to 30
0.001
0.00001
0.0001
0.005 % FS + 0.01 % RDG
0.01 % FS + 0.025% RDG
P6C
EXT6C
kPa
bar
psi
-100 to 600
-1 to 6
-14.5 to 90
0.01
0.0001
0.001
0.005 % FS + 0.01 % RDG
0.01 % FS + 0.025% RDG
P20C
EXT20C
kPa
bar
psi
-100 to 2000
-1 to 20
-14.5 to 300
0.01
0.0001
0.001
0.005 % FS + 0.01 % RDG
0.01 % FS + 0.025% RDG
P60
EXT60
kPa
bar
psi
0 to 6000
0 to 60
0 to 900
0.1
0.001
0.01
0.005 % FS + 0.0125 % RDG
0.01 % FS + 0.025% RDG
P100
EXT100
MPa
bar
psi
0 to 10
0 to 100
0 to 1500
0.0001
0.001
0.01
0.005 % FS + 0.0125 % RDG
0.01 % FS + 0.025% RDG
P160
EXT160
MPa
bar
psi
0 to 16
0 to 160
0 to 2400
0.0001
0.001
0.01
0.005 % FS + 0.0125 % RDG
0.01 % FS + 0.025% RDG
-
EXT250
MPa
bar
psi
0 to 25
0 to 250
0 to 3700
0.001
0.01
0.1
0.007 % FS + 0.0125 % RDG
0.015 % FS + 0.025% RDG
-
EXT600
MPa
bar
psi
0 to 60
0 to 600
0 to 9000
0.001
0.01
0.1
0.007 % FS + 0.01 % RDG
0.015 % FS + 0.025% RDG
-
EXT1000
MPa
bar
psi
0 to 100
0 to 1000
0 to 15000
0.001
0.01
0.1
0.007 % FS + 0.01 % RDG
0.015 % FS + 0.025% RDG
Accuracy includes hysteresis, nonlinearity and repeatability (k=2).
Uncertainty includes reference standard uncertainty, hysteresis, nonlinearity, repeatability and typical long term stability for mentioned period. (k=2)
Every internal/external gauge pressure module’s range may be displayed also in absolute pressure if the Barometric Module (PB or EXT B) is installed/connected.
Maximum number of internal pressure modules is 3 gauge/differential pressure modules and one Barometric (PB) module in the extended case. The flat case has room for
internal Barometric module only. Both cases have connection for external pressure modules.
External pressure modules are also compatible with Beamex MC2, MC4 and MC5 family calibrators.
Supported pressure units:
Pa, kPa, hPa, MPa, mbar, bar, gf/cm2, kgf/cm2, kgf/m2, kp/cm2, lbf/ft2, psi, at, torr,
atm, ozf/in2, iwc, inH2O, ftH2O, mmH2O, cmH2O, mH2O, mmHg, cmHg, mHg, inHg,
mmHg(0°C), inHg(0°C), mmH2O(60°F), mmH2O(68°F), mmH2O(4°C), cmH2O(60°F),
cmH2O(68°F), cmH2O(4°C), inH2O(60°F), inH2O(68°F), inH2O(4°C), ftH2O(60°F),
ftH2O(68°F), ftH2O(4°C).
Large number of user pressure units can be created.
Pressure Media:
Modules up to P6C/EXT6C: Dry clean air or other clean, inert, non-toxic, noncorrosive gases. Modules P20C/EXT20C and higher: Clean, inert, non-toxic, noncorrosive gases or liquids
Temperature coefficient:
<±0.001% RDG/°C outside 15 - 35 °C (59 - 95 °F).
P10mD / EXT10mD: < ±0.002% Span/°C outside 15 - 35 °C (59 - 95 °F)
Pressure connection:
PB/EXTB: M5 (10/32”) female.
P10mD/EXT10mD: Two M5 (10/32”) female threads with hose nipples included.
P100m/EXT100m to P20C/EXT20C: G1/8” (ISO228/1) female. A conical 1/8” BSP
male with 60° internal cone adapter included for Beamex hose set.
P60, P100, P160: G1/8” (ISO228/1) female.
EXT60 to EXT1000: G ¼” (ISO228/1) male
Max overpressure:
2 times the nominal pressure. Except following modules;
PB/EXTB: 1200 mbar abs (35.4 inHg abs). P10mD/EXT10mD: 200 mbar (80 iwc).
EXT600: 900 bar (13000 psi). EXT1000: 1000 bar (15000 Psi).
18
Wetted Parts:
AISI316 stainless steel, Hastelloy, Nitrile rubber
TC measurement & simulation
TC1 measurement & simulation / TC2 measurement
Type
Range (°C)
Range (°C)
Accuracy (1
1 Year Uncertainty (2 (±)
(8
(4
B
0 ... 1820
0 ... 200
200 ... 500
500 ... 800
800 ... 1820
1.5 °C
0.6 °C
0.4 °C
2.0 °C
0.8 °C
0.5 °C
R(3
-50 ... 1768
-50 ... 0
0 ... 150
150 ... 400
400 ... 1768
0.8 °C
0.6 °C
0.35 °C
0.3 °C
1.0 °C
0.7 °C
0.45 °C
0.4 °C
S(3
-50 ... 1768
-50 ... 0
0 ... 100
100 ... 300
300 ... 1768
0.7 °C
0.6 °C
0.4 °C
0.35 °C
0.9 °C
0.7 °C
0.55 °C
0.45 °C
(4
-270 ... 1000
-270 ... -200
-200 ... 0
0 ... 1000
(8
E(3
0.05 °C + 0.04% RDG
0.05 °C + 0.003% RDG
0.07 °C + 0.06% RDG
0.07 °C + 0.005% RDG
(4
-210 ... 1200
-210 ... -200
-200 ... 0
0 ... 1200
(8
J(3
0.06 °C + 0.05% RDG
0.06 °C + 0.003% RDG
0.08 °C + 0.06% RDG
0.08 °C + 0.006% RDG
(8
(4
-270 ... 1372
-270 ... -200
-200 ... 0
0 ... 1000
1000 ... 1372
0.08 °C + 0.07% RDG
0.08 °C + 0.004% RDG
0.012% RDG
0.1 °C + 0.1% RDG
0.1 °C + 0.007% RDG
0.017% RDG
(8
(4
N(3
-270 ... 1300
-270 ... -200
-200 ... -100
-100 ... 0
0 ... 800
800 ... 1300
0.15% RDG
0.11 °C + 0.04% RDG
0.11 °C
0.06 °C + 0.006% RDG
0.2% RDG
0.15 °C + 0.05% RDG
0.15 °C
0.07 °C + 0.01% RDG
(4
-270 ... 400
-270 ... -200
-200 ... 0
0 ... 400
(8
T(3
0.07 °C + 0.07% RDG
0.07 °C
0.1 °C + 0.1% RDG
0.1 °C
U(5
-200 ... 600
-200 ... 0
0 ... 600
0.07 °C + 0.05% RDG
0.07 °C
0.1 °C + 0.07% RDG
0.1 °C
L(5
-200 ... 900
-200 ... 0
0 ... 900
0.06 °C + 0.025% RDG
0.06 °C + 0.002% RDG
0.08 °C + 0.04% RDG
0.08 °C + 0.005% RDG
C(6
0 ... 2315
0 ... 1000
1000 ... 2315
0.22 °C
0.018% RDG
0.3 °C
0.027% RDG
(8
(4
G(7
0 ... 2315
0 ... 60
60 ... 200
200 ... 400
400 ... 1500
1500 ... 2315
0.9 °C
0.4 °C
0.2 °C
0.014% RDG
1.0 °C
0.5 °C
0.3 °C
0.02% RDG
D(6
0 ... 2315
0 ... 140
140 ... 1200
1200 ... 2100
2100 ... 2315
0.3 °C
0.2 °C
0.016% RDG
0.45 °C
0.4 °C
0.3 °C
0.024% RDG
0.65 °C
(3
K(3
Resolution 0.01 °C.
With internal reference junction please see separate specification.
Also other thermocouple types available as option, please contact Beamex.
Accuracy includes hysteresis, nonlinearity and repeatability (k=2).
Uncertainty includes reference standard uncertainty, hysteresis, nonlinearity, repeatability and typical long term stability for mentioned period. (k=2)
IEC 584, NIST MN 175, BS 4937, ANSI MC96.1
4)
±0.007% of thermovoltage + 4 µV
5)
DIN 43710
6)
ASTM E 988 - 96
7)
ASTM E 1751 - 95e1
8)
±0.004% of thermovoltage + 3 µV
1)
2)
3)
Measurement input impedance
> 10 MΩ
Simulation maximum load current
5 mA
Simulation load effect
< 5 μV/mA
Supported units
°C, °F, Kelvin, °Ré, °Ra
Connector
TC1: Universal TC connector , TC2: TC Miniplug
19
RTD measurement & simulation
R1 & R2 measurement
Sensor Type
Range (°C)
Range (°C)
Accuracy (1
1 Year Uncertainty (2 (±)
Pt50(385)
-200 ... 850
-200 ... 270
270 ... 850
0.025 °C
0.009% RDG
0.03 °C
0.012% RDG
Pt100(375)
Pt100(385)
Pt100(389)
Pt100(391)
Pt100(3926)
-200 ... 850
-200 ... 0
0 ... 850
0.011 °C
0.011 °C + 0.009% RDG
0.015 °C
0.015 ° + 0.012% RDG
Pt100(3923)
-200 ... 600
-200 ... 0
0 ... 600
0.011 °C
0.011 °C + 0.009% RDG
0.015 °C
0.015 °C + 0.012% RDG
Pt200(385)
-200 ... 850
-200 ... -80
-80 ... 0
0 ... 260
260 ... 850
0.007 °C
0.016 °C
0.016 °C + 0.009% RDG
0.03 °C + 0.011% RDG
0.01 °C
0.02 °C
0.02 °C + 0.012% RDG
0.045 °C + 0.02% RDG
Pt400(385)
-200 ... 850
-200 ... -100
-100 ... 0
0 ... 850
0.007 °C
0.015 °C
0.026 °C + 0.01% RDG
0.01 °C
0.02 °C
0.045 °C + 0.019% RDG
Pt500(385)
-200 ... 850
-200 ... -120
-120 ... -50
-50 ... 0
0 ... 850
0.008 °C
0.013 °C
0.025 °C
0.025 °C + 0.01% RDG
0.01 °C
0.02 °C
0.045 °C
0.045 °C + 0.019% RDG
Pt1000(385)
-200 ... 850
-200 ... -150
-150 ... -50
-50 ... 0
0 ... 850
0.007 °C
0.018 °C
0.022 °C
0.022 °C + 0.01% RDG
0.008°C
0.03 °C
0.04 °C
0.04 °C + 0.019% RDG
Ni100(618)
-60 ... 180
-60 ... 0
0 ... 180
0.009 °C
0.009 °C + 0.005% RDG
0.012 °C
0.012 °C + 0.006% RDG
Ni120(672)
-80 ... 260
-80 ... 0
0 ... 260
0.009 °C
0.009 °C + 0.005% RDG
0.012 °C
0.012 °C + 0.006% RDG
Cu10(427)
-200 ... 260
-200 ... 260
0.012 °C
0.16 °C
Sensor Type
Range (°C)
Range (°C)
Accuracy (1
1 Year Uncertainty (2 (±)
Pt50(385)
-200 ... 850
-200 ... 270
270 ... 850
0.055 °C
0.035 °C + 0.008% RDG
0.11 °C
0.11°C + 0.015% RDG
Pt100(375)
Pt100(385)
Pt100(389)
Pt100(391)
Pt100(3926)
-200 ... 850
-200 ... 0
0 ... 850
0.025 °C
0.025 °C + 0.007% RDG
0.05 °C
0.05 °C + 0.014% RDG
Pt100(3923)
-200 ... 600
-200 ... 0
0 ... 600
0.025 °C
0.025 °C + 0.007% RDG
0.05 °C
0.05 °C + 0.014% RDG
Pt200(385)
-200 ... 850
-200 ... -80
-80 ... 0
0 ... 260
260 ... 850
0.012 °C
0.02 °C
0.02 °C + 0.006% RDG
0.03 °C + 0.011% RDG
0.025 °C
0.035 °C
0.04 °C + 0.011% RDG
0.06 °C + 0.02% RDG
Pt400(385)
-200 ... 850
-200 ... -100
-100 ... 0
0 ... 850
0.01 °C
0.015 °C
0.027 °C + 0.01% RDG
0.015 °C
0.03 °C
0.05 °C + 0.019% RDG
Pt500(385)
-200 ... 850
-200 ... -120
-120 ... -50
-50 ... 0
0 ... 850
0.008 °C
0.012 °C
0.026 °C
0.026 °C + 0.01% RDG
0.015 °C
0.025 °C
0.05 °C
0.05 °C + 0.019% RDG
Pt1000(385)
-200 ... 850
-200 ... -150
-150 ... -50
-50 ... 0
0 ... 850
0.006 °C
0.017 °C
0.023 °C
0.023 °C + 0.01% RDG
0.011 °C
0.03 °C
0.043 °C
0.043 °C + 0.019% RDG
Ni100(618)
-60 ... 180
-60 ... 0
0 ... 180
0.021 °C
0.019 °C
0.042 °C
0.037 °C + 0.001% RDG
Ni120(672)
-80 ... 260
-80 ... 0
0 ... 260
0.021 °C
0.019 °C
0.042 °C
0.037 °C + 0.001% RDG
Cu10(427)
-200 ... 260
-200 ... 260
0.26 °C
0.52 °C
R1 Simulation
For Platinum sensors Callendar van Dusen coefficients can be programmed. Also other RTD types available as option, please contact Beamex.
20
RTD Measurement current
Pulsed, bi-directional 1 mA (0..500 Ω), 0.2 mA (>500 Ω).
4-wire connection
Measurement specifications valid
3-wire measurement
Add 10 mΩ
Max resistance excitation current
5 mA (0...650 Ω). Iexc * Rsim < 3.25 V (650...4000 Ω).
Min resistance excitation current
> 0.2 mA (0...400 Ω). >0.1 mA (400...4000 Ω).
Simulation settling time with pulsed excitation current
< 1 ms
Supported units
°C, °F, Kelvin, °Ré, °Ra
Internal Reference Junction TC1 & TC2
Range (°C)
Accuracy (1
1 Year Uncertainty (2
-10 … 45 °C
±0.10 °C
±0.15 °C
Specifications valid in temperature range: 15 ... 35 °C.
Temperature coefficient outside of 15 ... 35 °C: ±0.005 °C/°C.
Specifications assumes that calibrator has stabilized in environmental condition, being switched on, for minimum of 90 minutes. For a measurement or simulation done
sooner than that, please add uncertainty of 0.15 °C.
In order to calculate the total uncertainty of thermocouple measurement or simulation with internal reference junction used, please add the relevant thermocouple
uncertainty and the Internal Reference Junction uncertainty together as a root sum of the squares.
Voltage measurement
IN (-1 … 60 V)
Range
Resolution
Accuracy (1
1 Year Uncertainty (2
-1.01 ... 1 V
0.001 mV
3 µV + 0.003% RDG
5 µV + 0.006% RDG
1 ... 60.6 V
0.01 mV
0.125 mV + 0.003% RDG
0.25 mV + 0.006% RDG
Input impedance
> 2 MΩ
Supported units
V, mV, µV
TC1 & TC2 (-1 … 1 V)
1)
2)
Range
Resolution
Accuracy (1
1 Year Uncertainty (2
-1.01 ... 1.01 V
0.001 mV
3 µV + 0.004% RDG
4 µV + 0.007% RDG
Input impedance
> 10 MΩ
Supported units
V, mV, µV
Connector
TC1: Universal TC connector , TC2: TC Miniplug
Accuracy includes hysteresis, nonlinearity and repeatability (k=2).
Uncertainty includes reference standard uncertainty, hysteresis, nonlinearity, repeatability and typical long term stability for mentioned period. (k=2)
21
Voltage generation
OUT (-3 ... 24 V)
Range
Resolution
Accuracy (1
1 Year Uncertainty (2
-3 … 10 V
0.00001 V
0.05 mV + 0.004% RDG
0.1 mV + 0.007% RDG
10 … 24 V
0.0001 V
0.05 mV + 0.004% RDG
0.1 mV + 0.007% RDG
Maximum load current
10 mA
Short circuit current
>100 mA
Load effect
< 50 µV/mA
Supported units
V, mV, µV
TC1 (-1 ... 1 V)
Range
Resolution
Accuracy (1
1 Year Uncertainty (2
-1 … 1 V
0.001 mV
3 µV + 0.004% RDG
4 µV + 0.007% RDG
Maximum load current
5 mA
Load effect
< 5 µV/mA
Supported units
V, mV, µV
Current measurement
IN (-100 ... 100 mA)
Range
Resolution
Accuracy (1
1 Year Uncertainty (2
-25 … 25 mA
0.0001 mA
0.75 µA + 0.0075% RDG
1 µA + 0.01% RDG
±(25 … 101 mA)
0.001 mA
0.75 µA + 0.0075% RDG
1 µA + 0.01% RDG
Input impedance
< 10 Ω
Supported units
mA, µA
Loop supply
Internal 24 V ±10% (max 55 mA), or external max 60 VDC.
Current generation
OUT (0 ... 55 mA)
1)
2)
Range
Resolution
Accuracy (1
1 Year Uncertainty (2
0 … 25 mA
0.0001 mA
0.75 µA + 0.0075% RDG
1 µA + 0.01% RDG
25 … 55 mA
0.001 mA
1.5 µA + 0.0075% RDG
2 µA + 0.01% RDG
Internal loop supply
24 V ±5%. Max 55 mA.
Max load impedance w. internal supply
24 V / (generated current). 1140 Ω @ 20 mA, 450 Ω @ 50 mA
Max external loop supply
60 VDC
Supported units
mA, µA
Accuracy includes hysteresis, nonlinearity and repeatability (k=2).
Uncertainty includes reference standard uncertainty, hysteresis, nonlinearity, repeatability and typical long term stability for mentioned period. (k=2)
22
Frequency measurement
IN (0.0027 … 51000 Hz)
Range
Resolution
Accuracy (1
1 Year Uncertainty (2
0.0027 … 0.5 Hz
0.000001 Hz
0.000002 Hz + 0.001% RDG
0.000002 Hz + 0.002% RDG
0.5 … 5 Hz
0.00001 Hz
0.00002 Hz + 0.001% RDG
0.00002 Hz + 0.002% RDG
5 … 50 Hz
0.0001 Hz
0.0002 Hz + 0.001% RDG
0.0002 Hz + 0.002% RDG
50 … 500 Hz
0.001 Hz
0.002 Hz + 0.001% RDG
0.002 Hz + 0.002% RDG
500 … 5000 Hz
0.01 Hz
0.02 Hz + 0.001% RDG
0.02 Hz + 0.002% RDG
5000 … 51000 Hz
0.1 Hz
0.2 Hz + 0.001% RDG
0.2 Hz + 0.002% RDG
Input impedance
> 1 MΩ
Supported units
Hz, kHz, cph, cpm, 1/Hz(s), 1/kHz(ms), 1/MHz(µs)
Trigger level
Dry contact, wet contact -1 … 14 V
Minimum signal amplitude
1.0 Vpp (<10kHz), 1.2 Vpp (10 … 50 kHz)
Frequency generation
OUT (0.0005 ... 50000 Hz)
Range
Resolution
Accuracy (1
1 Year Uncertainty (2
0.0005 … 0.5 Hz
0.000001 Hz
0.000002 Hz + 0.001 % RDG
0.000002 Hz + 0.002% RDG
0.5 … 5 Hz
0.00001 Hz
0.00002 Hz + 0.001 % RDG
0.00002 Hz + 0.002% RDG
5 … 50 Hz
0.0001 Hz
0.0002 Hz + 0.001 % RDG
0.0002 Hz + 0.002% RDG
50 … 500 Hz
0.001 Hz
0.002 Hz + 0.001 % RDG
0.002 Hz + 0.002% RDG
500 … 5000 Hz
0.01 Hz
0.02 Hz + 0.001 % RDG
0.02 Hz + 0.002% RDG
5000 … 50000 Hz
0.1 Hz
0.2 Hz + 0.001 % RDG
0.2 Hz + 0.002% RDG
Maximum load current
10 mA
Vawe forms
Positive square, symmetric square
Output amplitude positive square wave
0 ... 24 Vpp
Output amplitude symmetric square wave
0 ... 6 Vpp
Duty Cycle
1 ... 99%
Amplitude accuracy
< 5% of amplitude
Supported units
Hz, kHz, cph, cpm, 1/Hz(s), 1/kHz(ms), 1/MHz(µs)
Pulse counting
IN (0 ... 9 999 999 pulses)
1)
2)
Input impedance
> 1 MΩ
Trigger level
Dry contact, wet contact -1 … 14 V
Minimum signal amplitude
1 Vpp (< 10 kHz), 1.2 Vpp (10 ... 50 kHz).
Max frequency
50 kHz
Trigger edge
Rising, falling
Accuracy includes hysteresis, nonlinearity and repeatability (k=2).
Uncertainty includes reference standard uncertainty, hysteresis, nonlinearity, repeatability and typical long term stability for mentioned period. (k=2)
23
Pulse generation
OUT (0 ... 9 999 999 pulses)
Resolution
1 pulse
Maximum load current
10 mA
Output amplitude positive pulse
0 … 24 Vpp
Output amplitude symmetric pulse
0 … 6 Vpp
Pulse frequency range
0.0005 … 10000 Hz
Duty Cycle
1 … 99%
Resistance measurement
R1 & R2 (0 ... 4000 Ω)
Range
Resolution
Accuracy (1
1 Year Uncertainty (2
-1 ... 100 Ω
0.001 Ω
4.5 mΩ
6 mΩ
100 ... 110 Ω
0.001 Ω
0.0045% RDG
0.006% RDG
110 ... 150 Ω
0.001 Ω
0.005% RDG
0.007% RDG
150 ... 300 Ω
0.001 Ω
0.006% RDG
0.008% RDG
300 ... 400 Ω
0.001 Ω
0.007% RDG
0.009% RDG
400 ... 4040 Ω
0.01 Ω
9 mΩ + 0.008% RDG
12 mΩ + 0.015% RDG
Measurement current
Pulsed, bi-directional 1 mA (0..500 Ω), 0.2 mA (>500 Ω).
Supported units
Ω, kΩ
4-wire connection
Measurement specifications valid
3-wire measurement
Add 10 mΩ
Resistance simulation
R1 (0 ... 4000 Ω)
1)
2)
Range
Resolution
Accuracy (1
1 Year Uncertainty (2
0 … 100 Ω
0.001 Ω
10 mΩ
20 mΩ
100 … 400 Ω
0.001 Ω
5 mΩ + 0.005% RDG
10 mΩ + 0.01% RDG
400 … 4000 Ω
0.01 Ω
10 mΩ + 0.008% RDG
20 mΩ + 0.015% RDG
Max resistance excitation current
5 mA (0 ... 650 Ω). Iexc * Rsim < 3.25 V (650 ... 4000 Ω).
Min resistance excitation current
> 0.2 mA (0 ... 400 Ω). >0.1 mA (400 ... 4000 Ω).
Settling time with pulsed exitation current
< 1ms
Supported units
Ω, kΩ
Accuracy includes hysteresis, nonlinearity and repeatability (k=2).
Uncertainty includes reference standard uncertainty, hysteresis, nonlinearity, repeatability and typical long term stability for mentioned period. (k=2)
24
Modularity, options and accessories
Modularity and options
• All electrical / temperature functions are included as standard
• Two case bottom choices:
- flat (no room for internal pressure modules, only Barometer)
- extended (room for internal pressure modules)
• Optional internal pressure modules (up to four internal
pressure modules; three standard and one barometric)
• Optional user-interface modes:
- Documenting Calibrator
- Data Logger
- HART Communicator
- FOUNDATION Fieldbus Communicator
- Profibus PA Communicator
• Pressure / Temperature Controller Communications
Standard Accessories
• Accredited calibration certificate
• User guide
• Computer cable (USB)
• Battery charger / eliminator
• Internal LiPO battery pack
• Test leads and clips
• Appropriate pressure T-hose with internal low pressure
modules
• CD-ROM with user manual, software tools and product
information
Optional Accessories
• Soft Carrying Case
• Soft Accessory Case
• Hard Carrying Case
• Spare battery pack
• Adapter cables for the second RTD channel
• Cable for pressure and temperature controllers
25
Related products and services
Portable calibrators
Beamex’s range of portable MC-calibrators for field calibration is known for their accuracy, versatility and also for
meeting both high and uncompromised quality standards.
Workstations
A workstation can be considered ideal when most of the maintenance and calibration tasks are performed in the
workshop. Beamex’s workstation is a modular testing and calibration system designed for use in workshops and
laboratories.
Temperature dry blocks
Beamex offers two different dry block series: the Beamex® FB Series Field Temperature Blocks and the Beamex® MB
Series Metrology Temperature Blocks. The dry blocks in the FB Series are lightweight, high-accuracy temperature dry
blocks for industrial use. The dry blocks in the MB Series deliver bath-level accuracy for industrial applications as well.
Calibration software
Beamex® CMX Calibration Management Software
The Beamex® CMX is calibration management software that assists in documenting, planning, analyzing and, finally,
optimizing calibration work. The CMX’s scalable technology and user configuration allows you to integrate it easily
into other systems for a one-of-kind calibration system that fits your specific needs completely. The CMX also helps to
meet the regulatory requirements, whether your plant’s calibration system needs to comply with ISO 17025, cGMP or
21 CFR Part 11. By using the CMX, you will have all your calibration results in a traceable and auditable form, either
printed on paper or stored in electronic format in a database.
Professional services
Recalibration and service
There are many benefits from using the services provided by Beamex’s accredited calibration laboratory on a regular
basis. It ensures that the calibration equipment remains in excellent condition and you are also able to provide, if
needed, up-to-date proof of the calibrator’s measurement accuracy. The Beamex Calibration Laboratory provides
traceable calibration services in pressure, temperature, DC current, DC voltage, resistance and frequency.
Training and installation
Beamex provides worldwide services for installation and training. This way you are able to have your new calibration
system up and running in no time. You also learn about the capabilities of Beamex calibration equipment, how to use it
and how your organization will benefit the most from it.
Accessories
PG series of calibration pumps
The PG series includes hand-held, lightweight pressure and vacuum sources for field use. The PG series of hand
pumps are ideal pressure/vacuum generators to be used as accessories for pressure and vacuum calibration.
External pressure modules
The external pressure modules introduce new configuration possibilities and add flexibility, as it is possible to calibrate
even more pressure ranges with the same calibrator. This way, the Beamex calibration equipment meets your needs
even better.
26
PORTABLE CALIBRATORS
WORKSTATIONS
PROFESSIONAL SERVICES
CALIBRATION SOFTWARE
27
28
Beamex Oy Ab 292012
www.beamex.com
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